Hydrodynamics from Landau initial conditions

Abhisek Sen; Jochen Gerhard; Giorgio Torrieri; Kenneth Read; Cheuk Yin Wong

doi:10.1088/1742-6596/630/1/012042

Hydrodynamics from Landau initial conditions

Abhisek Sen, Jochen Gerhard, Giorgio Torrieri, Kenneth Read, Cheuk Yin Wong

Relativistic Nuclear Physics

Research output: Contribution to journal › Conference article › peer-review

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Abstract

We investigate ideal hydrodynamic evolution, with Landau initial conditions, both in a semi-analytical 1+1D approach and in a numerical code incorporating event-by event variation with many events and transverse density inhomogeneities. The object of the calculation is to test how fast would a Landau initial condition transition to a commonly used boost-invariant expansion. We show that the transition to boost-invariant flow occurs too late for realistic setups, with corrections of O (20 - 30%) expected at freeze out for most scenarios. Moreover, the deviation from boost-invariance is correlated with both transverse flow and elliptic flow, with the more highly transversely flowing regions also showing the most violation of boost invariance. Therefore, if longitudinal flow is not fully developed at the early stages of heavy ion collisions, 2+1 dimensional hydrodynamics is inadequate to extract transport coefficients of the quark-gluon plasma.

Original language	English
Article number	012042
Journal	Journal of Physics: Conference Series
Volume	630
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/630/1/012042
State	Published - Jul 15 2015
Event	37th Brazilian Meeting on Nuclear Physics, RTFNB 2014 - Maresias, Sao Paulo, Brazil Duration: Sep 8 2014 → Sep 12 2014

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title = "Hydrodynamics from Landau initial conditions",

abstract = "We investigate ideal hydrodynamic evolution, with Landau initial conditions, both in a semi-analytical 1+1D approach and in a numerical code incorporating event-by event variation with many events and transverse density inhomogeneities. The object of the calculation is to test how fast would a Landau initial condition transition to a commonly used boost-invariant expansion. We show that the transition to boost-invariant flow occurs too late for realistic setups, with corrections of O (20 - 30%) expected at freeze out for most scenarios. Moreover, the deviation from boost-invariance is correlated with both transverse flow and elliptic flow, with the more highly transversely flowing regions also showing the most violation of boost invariance. Therefore, if longitudinal flow is not fully developed at the early stages of heavy ion collisions, 2+1 dimensional hydrodynamics is inadequate to extract transport coefficients of the quark-gluon plasma.",

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AU - Sen, Abhisek

AU - Gerhard, Jochen

AU - Torrieri, Giorgio

AU - Read, Kenneth

AU - Wong, Cheuk Yin

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2015/7/15

Y1 - 2015/7/15

N2 - We investigate ideal hydrodynamic evolution, with Landau initial conditions, both in a semi-analytical 1+1D approach and in a numerical code incorporating event-by event variation with many events and transverse density inhomogeneities. The object of the calculation is to test how fast would a Landau initial condition transition to a commonly used boost-invariant expansion. We show that the transition to boost-invariant flow occurs too late for realistic setups, with corrections of O (20 - 30%) expected at freeze out for most scenarios. Moreover, the deviation from boost-invariance is correlated with both transverse flow and elliptic flow, with the more highly transversely flowing regions also showing the most violation of boost invariance. Therefore, if longitudinal flow is not fully developed at the early stages of heavy ion collisions, 2+1 dimensional hydrodynamics is inadequate to extract transport coefficients of the quark-gluon plasma.

AB - We investigate ideal hydrodynamic evolution, with Landau initial conditions, both in a semi-analytical 1+1D approach and in a numerical code incorporating event-by event variation with many events and transverse density inhomogeneities. The object of the calculation is to test how fast would a Landau initial condition transition to a commonly used boost-invariant expansion. We show that the transition to boost-invariant flow occurs too late for realistic setups, with corrections of O (20 - 30%) expected at freeze out for most scenarios. Moreover, the deviation from boost-invariance is correlated with both transverse flow and elliptic flow, with the more highly transversely flowing regions also showing the most violation of boost invariance. Therefore, if longitudinal flow is not fully developed at the early stages of heavy ion collisions, 2+1 dimensional hydrodynamics is inadequate to extract transport coefficients of the quark-gluon plasma.

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T2 - 37th Brazilian Meeting on Nuclear Physics, RTFNB 2014

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Hydrodynamics from Landau initial conditions

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